Skip to main content
ARS Home » Plains Area » Las Cruces, New Mexico » Range Management Research » Research » Publications at this Location » Publication #139202

Title: SENSITIVITY TESTING OF THE GAP INTERCEPT METHOD, A SIMPLE, RAPID INDICATOR OF CHANGES IN VEGETATION, SOIL EROSION AND HYDROLOGIC FUNCTION

Author
item Herrick, Jeffrey - Jeff
item GILLETTE, DALE - EPA
item REMMENGA, MARTA - NEW MEXICO STATE UNIV

Submitted to: Meeting Abstract
Publication Type: Abstract Only
Publication Acceptance Date: 8/1/2002
Publication Date: 9/9/2002
Citation: HERRICK, J.E., GILLETTE, D.E., REMMENGA, M.D. SENSITIVITY TESTING OF THE GAP INTERCEPT METHOD, A SIMPLE, RAPID INDICATOR OF CHANGES IN VEGETATION, SOIL EROSION AND HYDROLOGIC FUNCTION. AMERICAN GEOPHYSICAL UNION CHAPMAN CONFERENCE ON ECO-HYDROLOGY OF SEMIARID LANDSCAPES: INTERACTIONS AND PROCESSES. 2002. ABSTRACT P. 17.

Interpretive Summary:

Technical Abstract: The spatial structure of vegetation is widely recognized as a key factor controlling soil erosion and hydrology in arid and semiarid ecosystems at multiple spatial scales. At the plant-interspace scale, shrub invasion of grasslands may cause little or no change in total plant canopy cover but dramatically increases the area susceptible to wind erosion and reduces resistance to overland water flow. At the patch scale, the development of vegetation bands has been shown to dramatically change both hydrology and primary production. The gap intercept method is designed to detect changes in the proportion of the soil surface covered by gaps between plants larger than a minimum size. Cumulative area and frequency distributions can also be generated from the data. Gaps between both plant canopies and plant bases are recorded along the same line transect. Sensitivity tests completed in relatively degraded and undegraded areas in southern New Mexico showed the method is sensitive to vegetation change and to related changes in wind erosion and can be completed at relatively low cost by individuals with little or no botanical knowledge. We will also present the results of a comparison with a semi-quantitative ¿boot-gap¿ technique designed for use by land managers in conjunction with step-point methods of estimating plant cover and composition.